author | huffman |
Sun, 09 May 2010 17:47:43 -0700 | |
changeset 36777 | be5461582d0f |
parent 36692 | 54b64d4ad524 |
child 37388 | 793618618f78 |
permissions | -rw-r--r-- |
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(* Title: HOL/Tools/lin_arith.ML |
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Author: Tjark Weber and Tobias Nipkow, TU Muenchen |
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HOL setup for linear arithmetic (see Provers/Arith/fast_lin_arith.ML). |
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*) |
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signature LIN_ARITH = |
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sig |
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val pre_tac: simpset -> int -> tactic |
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val simple_tac: Proof.context -> int -> tactic |
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val tac: Proof.context -> int -> tactic |
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val simproc: simpset -> term -> thm option |
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val add_inj_thms: thm list -> Context.generic -> Context.generic |
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val add_lessD: thm -> Context.generic -> Context.generic |
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val add_simps: thm list -> Context.generic -> Context.generic |
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val add_simprocs: simproc list -> Context.generic -> Context.generic |
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val add_inj_const: string * typ -> Context.generic -> Context.generic |
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val add_discrete_type: string -> Context.generic -> Context.generic |
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val set_number_of: (theory -> typ -> int -> cterm) -> Context.generic -> |
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Context.generic |
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val setup: Context.generic -> Context.generic |
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val global_setup: theory -> theory |
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val split_limit: int Config.T |
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val neq_limit: int Config.T |
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val trace: bool Unsynchronized.ref |
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end; |
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structure Lin_Arith: LIN_ARITH = |
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struct |
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(* Parameters data for general linear arithmetic functor *) |
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structure LA_Logic: LIN_ARITH_LOGIC = |
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struct |
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val ccontr = ccontr; |
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val conjI = conjI; |
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val notI = notI; |
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val sym = sym; |
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val trueI = TrueI; |
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val not_lessD = @{thm linorder_not_less} RS iffD1; |
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val not_leD = @{thm linorder_not_le} RS iffD1; |
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fun mk_Eq thm = thm RS @{thm Eq_FalseI} handle THM _ => thm RS @{thm Eq_TrueI}; |
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val mk_Trueprop = HOLogic.mk_Trueprop; |
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fun atomize thm = case Thm.prop_of thm of |
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Const ("Trueprop", _) $ (Const (@{const_name "op &"}, _) $ _ $ _) => |
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atomize (thm RS conjunct1) @ atomize (thm RS conjunct2) |
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| _ => [thm]; |
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fun neg_prop ((TP as Const("Trueprop", _)) $ (Const (@{const_name Not}, _) $ t)) = TP $ t |
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| neg_prop ((TP as Const("Trueprop", _)) $ t) = TP $ (HOLogic.Not $t) |
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| neg_prop t = raise TERM ("neg_prop", [t]); |
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fun is_False thm = |
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let val _ $ t = Thm.prop_of thm |
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in t = HOLogic.false_const end; |
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fun is_nat t = (fastype_of1 t = HOLogic.natT); |
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fun mk_nat_thm thy t = |
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let |
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val cn = cterm_of thy (Var (("n", 0), HOLogic.natT)) |
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and ct = cterm_of thy t |
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in instantiate ([], [(cn, ct)]) @{thm le0} end; |
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end; (* LA_Logic *) |
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(* arith context data *) |
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structure Lin_Arith_Data = Generic_Data |
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( |
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type T = {splits: thm list, |
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inj_consts: (string * typ) list, |
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discrete: string list}; |
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val empty = {splits = [], inj_consts = [], discrete = []}; |
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val extend = I; |
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fun merge |
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({splits= splits1, inj_consts= inj_consts1, discrete= discrete1}, |
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{splits= splits2, inj_consts= inj_consts2, discrete= discrete2}) : T = |
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{splits = Thm.merge_thms (splits1, splits2), |
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inj_consts = Library.merge (op =) (inj_consts1, inj_consts2), |
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discrete = Library.merge (op =) (discrete1, discrete2)}; |
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); |
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val get_arith_data = Lin_Arith_Data.get o Context.Proof; |
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fun add_split thm = Lin_Arith_Data.map (fn {splits, inj_consts, discrete} => |
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{splits = update Thm.eq_thm_prop thm splits, |
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inj_consts = inj_consts, discrete = discrete}); |
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fun add_discrete_type d = Lin_Arith_Data.map (fn {splits, inj_consts, discrete} => |
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{splits = splits, inj_consts = inj_consts, |
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discrete = update (op =) d discrete}); |
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fun add_inj_const c = Lin_Arith_Data.map (fn {splits, inj_consts, discrete} => |
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{splits = splits, inj_consts = update (op =) c inj_consts, |
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discrete = discrete}); |
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val (split_limit, setup_split_limit) = Attrib.config_int "linarith_split_limit" (K 9); |
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val (neq_limit, setup_neq_limit) = Attrib.config_int "linarith_neq_limit" (K 9); |
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structure LA_Data = |
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struct |
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val fast_arith_neq_limit = neq_limit; |
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(* Decomposition of terms *) |
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(*internal representation of linear (in-)equations*) |
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type decomp = |
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((term * Rat.rat) list * Rat.rat * string * (term * Rat.rat) list * Rat.rat * bool); |
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fun nT (Type ("fun", [N, _])) = (N = HOLogic.natT) |
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| nT _ = false; |
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fun add_atom (t : term) (m : Rat.rat) (p : (term * Rat.rat) list, i : Rat.rat) : |
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(term * Rat.rat) list * Rat.rat = |
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case AList.lookup Pattern.aeconv p t of |
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NONE => ((t, m) :: p, i) |
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| SOME n => (AList.update Pattern.aeconv (t, Rat.add n m) p, i); |
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(* decompose nested multiplications, bracketing them to the right and combining |
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all their coefficients |
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inj_consts: list of constants to be ignored when encountered |
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(e.g. arithmetic type conversions that preserve value) |
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m: multiplicity associated with the entire product |
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returns either (SOME term, associated multiplicity) or (NONE, constant) |
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*) |
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fun demult (inj_consts : (string * typ) list) : term * Rat.rat -> term option * Rat.rat = |
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let |
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fun demult ((mC as Const (@{const_name Groups.times}, _)) $ s $ t, m) = |
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141 |
(case s of Const (@{const_name Groups.times}, _) $ s1 $ s2 => |
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142 |
(* bracketing to the right: '(s1 * s2) * t' becomes 's1 * (s2 * t)' *) |
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143 |
demult (mC $ s1 $ (mC $ s2 $ t), m) |
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144 |
| _ => |
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145 |
(* product 's * t', where either factor can be 'NONE' *) |
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146 |
(case demult (s, m) of |
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147 |
(SOME s', m') => |
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148 |
(case demult (t, m') of |
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149 |
(SOME t', m'') => (SOME (mC $ s' $ t'), m'') |
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150 |
| (NONE, m'') => (SOME s', m'')) |
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151 |
| (NONE, m') => demult (t, m'))) |
35084 | 152 |
| demult ((mC as Const (@{const_name Rings.divide}, _)) $ s $ t, m) = |
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153 |
(* FIXME: Shouldn't we simplify nested quotients, e.g. '(s/t)/u' could |
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154 |
become 's/(t*u)', and '(s*t)/u' could become 's*(t/u)' ? Note that |
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155 |
if we choose to do so here, the simpset used by arith must be able to |
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156 |
perform the same simplifications. *) |
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157 |
(* FIXME: Currently we treat the numerator as atomic unless the |
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158 |
denominator can be reduced to a numeric constant. It might be better |
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159 |
to demult the numerator in any case, and invent a new term of the form |
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160 |
'1 / t' if the numerator can be reduced, but the denominator cannot. *) |
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161 |
(* FIXME: Currently we even treat the whole fraction as atomic unless the |
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162 |
denominator can be reduced to a numeric constant. It might be better |
25015 | 163 |
to use the partially reduced denominator (i.e. 's / (2*t)' could be |
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164 |
demult'ed to 's / t' with multiplicity .5). This would require a |
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165 |
very simple change only below, but it breaks existing proofs. *) |
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|
166 |
(* quotient 's / t', where the denominator t can be NONE *) |
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167 |
(* Note: will raise Rat.DIVZERO iff m' is Rat.zero *) |
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168 |
(case demult (t, Rat.one) of |
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169 |
(SOME _, _) => (SOME (mC $ s $ t), m) |
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170 |
| (NONE, m') => apsnd (Rat.mult (Rat.inv m')) (demult (s, m))) |
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|
171 |
(* terms that evaluate to numeric constants *) |
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172 |
| demult (Const (@{const_name Groups.uminus}, _) $ t, m) = demult (t, Rat.neg m) |
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173 |
| demult (Const (@{const_name Groups.zero}, _), m) = (NONE, Rat.zero) |
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174 |
| demult (Const (@{const_name Groups.one}, _), m) = (NONE, m) |
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|
175 |
(*Warning: in rare cases number_of encloses a non-numeral, |
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176 |
in which case dest_numeral raises TERM; hence all the handles below. |
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177 |
Same for Suc-terms that turn out not to be numerals - |
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178 |
although the simplifier should eliminate those anyway ...*) |
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|
179 |
| demult (t as Const ("Int.number_class.number_of", _) $ n, m) = |
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|
180 |
((NONE, Rat.mult m (Rat.rat_of_int (HOLogic.dest_numeral n))) |
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|
181 |
handle TERM _ => (SOME t, m)) |
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182 |
| demult (t as Const (@{const_name Suc}, _) $ _, m) = |
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|
183 |
((NONE, Rat.mult m (Rat.rat_of_int (HOLogic.dest_nat t))) |
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|
184 |
handle TERM _ => (SOME t, m)) |
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|
185 |
(* injection constants are ignored *) |
24092
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|
186 |
| demult (t as Const f $ x, m) = |
24328
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|
187 |
if member (op =) inj_consts f then demult (x, m) else (SOME t, m) |
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|
188 |
(* everything else is considered atomic *) |
24092
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parents:
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|
189 |
| demult (atom, m) = (SOME atom, m) |
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diff
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|
190 |
in demult end; |
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|
191 |
|
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|
192 |
fun decomp0 (inj_consts : (string * typ) list) (rel : string, lhs : term, rhs : term) : |
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|
193 |
((term * Rat.rat) list * Rat.rat * string * (term * Rat.rat) list * Rat.rat) option = |
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|
194 |
let |
24328
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|
195 |
(* Turns a term 'all' and associated multiplicity 'm' into a list 'p' of |
83afe527504d
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|
196 |
summands and associated multiplicities, plus a constant 'i' (with implicit |
83afe527504d
fixed a bug in demult: -a in (-a * b) is no longer treated as atomic
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|
197 |
multiplicity 1) *) |
35267
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haftmann
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|
198 |
fun poly (Const (@{const_name Groups.plus}, _) $ s $ t, |
24092
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parents:
diff
changeset
|
199 |
m : Rat.rat, pi : (term * Rat.rat) list * Rat.rat) = poly (s, m, poly (t, m, pi)) |
35267
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moved remaning class operations from Algebras.thy to Groups.thy
haftmann
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35092
diff
changeset
|
200 |
| poly (all as Const (@{const_name Groups.minus}, T) $ s $ t, m, pi) = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
201 |
if nT T then add_atom all m pi else poly (s, m, poly (t, Rat.neg m, pi)) |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
202 |
| poly (all as Const (@{const_name Groups.uminus}, T) $ t, m, pi) = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
203 |
if nT T then add_atom all m pi else poly (t, Rat.neg m, pi) |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
204 |
| poly (Const (@{const_name Groups.zero}, _), _, pi) = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
205 |
pi |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
206 |
| poly (Const (@{const_name Groups.one}, _), m, (p, i)) = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
207 |
(p, Rat.add i m) |
71c27b320610
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wenzelm
parents:
diff
changeset
|
208 |
| poly (Const (@{const_name Suc}, _) $ t, m, (p, i)) = |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
209 |
poly (t, m, (p, Rat.add i m)) |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
210 |
| poly (all as Const (@{const_name Groups.times}, _) $ _ $ _, m, pi as (p, i)) = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
211 |
(case demult inj_consts (all, m) of |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
212 |
(NONE, m') => (p, Rat.add i m') |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
213 |
| (SOME u, m') => add_atom u m' pi) |
35084 | 214 |
| poly (all as Const (@{const_name Rings.divide}, _) $ _ $ _, m, pi as (p, i)) = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
215 |
(case demult inj_consts (all, m) of |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
216 |
(NONE, m') => (p, Rat.add i m') |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
217 |
| (SOME u, m') => add_atom u m' pi) |
25919
8b1c0d434824
joined theories IntDef, Numeral, IntArith to theory Int
haftmann
parents:
25015
diff
changeset
|
218 |
| poly (all as Const ("Int.number_class.number_of", Type(_,[_,T])) $ t, m, pi as (p, i)) = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
219 |
(let val k = HOLogic.dest_numeral t |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
220 |
val k2 = if k < 0 andalso T = HOLogic.natT then 0 else k |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
221 |
in (p, Rat.add i (Rat.mult m (Rat.rat_of_int k2))) end |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
222 |
handle TERM _ => add_atom all m pi) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
223 |
| poly (all as Const f $ x, m, pi) = |
36692
54b64d4ad524
farewell to old-style mem infixes -- type inference in situations with mem_int and mem_string should provide enough information to resolve the type of (op =)
haftmann
parents:
36001
diff
changeset
|
224 |
if member (op =) inj_consts f then poly (x, m, pi) else add_atom all m pi |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
225 |
| poly (all, m, pi) = |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
226 |
add_atom all m pi |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
227 |
val (p, i) = poly (lhs, Rat.one, ([], Rat.zero)) |
71c27b320610
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wenzelm
parents:
diff
changeset
|
228 |
val (q, j) = poly (rhs, Rat.one, ([], Rat.zero)) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
229 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
230 |
case rel of |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
231 |
@{const_name Orderings.less} => SOME (p, i, "<", q, j) |
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
232 |
| @{const_name Orderings.less_eq} => SOME (p, i, "<=", q, j) |
24092
71c27b320610
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parents:
diff
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|
233 |
| "op =" => SOME (p, i, "=", q, j) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
234 |
| _ => NONE |
24328
83afe527504d
fixed a bug in demult: -a in (-a * b) is no longer treated as atomic
webertj
parents:
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changeset
|
235 |
end handle Rat.DIVZERO => NONE; |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
236 |
|
24271 | 237 |
fun of_lin_arith_sort thy U = |
35050
9f841f20dca6
renamed OrderedGroup to Groups; split theory Ring_and_Field into Rings Fields
haftmann
parents:
35028
diff
changeset
|
238 |
Sign.of_sort thy (U, @{sort Rings.linordered_idom}); |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
239 |
|
31101
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
240 |
fun allows_lin_arith thy (discrete : string list) (U as Type (D, [])) : bool * bool = |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
241 |
if of_lin_arith_sort thy U then (true, member (op =) discrete D) |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
242 |
else if member (op =) discrete D then (true, true) else (false, false) |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
243 |
| allows_lin_arith sg discrete U = (of_lin_arith_sort sg U, false); |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
244 |
|
26942 | 245 |
fun decomp_typecheck (thy, discrete, inj_consts) (T : typ, xxx) : decomp option = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
246 |
case T of |
71c27b320610
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wenzelm
parents:
diff
changeset
|
247 |
Type ("fun", [U, _]) => |
71c27b320610
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wenzelm
parents:
diff
changeset
|
248 |
(case allows_lin_arith thy discrete U of |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
249 |
(true, d) => |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
250 |
(case decomp0 inj_consts xxx of |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
251 |
NONE => NONE |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
252 |
| SOME (p, i, rel, q, j) => SOME (p, i, rel, q, j, d)) |
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|
253 |
| (false, _) => |
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|
254 |
NONE) |
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|
255 |
| _ => NONE; |
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|
256 |
|
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|
257 |
fun negate (SOME (x, i, rel, y, j, d)) = SOME (x, i, "~" ^ rel, y, j, d) |
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|
258 |
| negate NONE = NONE; |
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|
259 |
|
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|
260 |
fun decomp_negation data |
26942 | 261 |
((Const ("Trueprop", _)) $ (Const (rel, T) $ lhs $ rhs)) : decomp option = |
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|
262 |
decomp_typecheck data (T, (rel, lhs, rhs)) |
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|
263 |
| decomp_negation data ((Const ("Trueprop", _)) $ |
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|
264 |
(Const ("Not", _) $ (Const (rel, T) $ lhs $ rhs))) = |
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|
265 |
negate (decomp_typecheck data (T, (rel, lhs, rhs))) |
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|
266 |
| decomp_negation data _ = |
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|
267 |
NONE; |
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|
268 |
|
26942 | 269 |
fun decomp ctxt : term -> decomp option = |
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|
270 |
let |
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|
271 |
val thy = ProofContext.theory_of ctxt |
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|
272 |
val {discrete, inj_consts, ...} = get_arith_data ctxt |
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|
273 |
in decomp_negation (thy, discrete, inj_consts) end; |
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|
274 |
|
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|
275 |
fun domain_is_nat (_ $ (Const (_, T) $ _ $ _)) = nT T |
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|
276 |
| domain_is_nat (_ $ (Const ("Not", _) $ (Const (_, T) $ _ $ _))) = nT T |
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|
277 |
| domain_is_nat _ = false; |
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|
278 |
|
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|
279 |
|
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|
280 |
(*---------------------------------------------------------------------------*) |
32369 | 281 |
(* the following code performs splitting of certain constants (e.g., min, *) |
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|
282 |
(* max) in a linear arithmetic problem; similar to what split_tac later does *) |
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|
283 |
(* to the proof state *) |
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|
284 |
(*---------------------------------------------------------------------------*) |
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|
285 |
|
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|
286 |
(* checks if splitting with 'thm' is implemented *) |
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|
287 |
|
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proper context for Display.pretty_thm etc. or old-style versions Display.pretty_thm_global, Display.pretty_thm_without_context etc.;
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|
288 |
fun is_split_thm thm = |
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|
289 |
case concl_of thm of _ $ (_ $ (_ $ lhs) $ _) => ( |
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|
290 |
(* Trueprop $ ((op =) $ (?P $ lhs) $ rhs) *) |
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|
291 |
case head_of lhs of |
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|
292 |
Const (a, _) => member (op =) [@{const_name Orderings.max}, |
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|
293 |
@{const_name Orderings.min}, |
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|
294 |
@{const_name Groups.abs}, |
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|
295 |
@{const_name Groups.minus}, |
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|
296 |
"Int.nat" (*DYNAMIC BINDING!*), |
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|
297 |
"Divides.div_class.mod" (*DYNAMIC BINDING!*), |
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|
298 |
"Divides.div_class.div" (*DYNAMIC BINDING!*)] a |
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|
299 |
| _ => (warning ("Lin. Arith.: wrong format for split rule " ^ |
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|
300 |
Display.string_of_thm_without_context thm); |
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|
301 |
false)) |
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|
302 |
| _ => (warning ("Lin. Arith.: wrong format for split rule " ^ |
32091
30e2ffbba718
proper context for Display.pretty_thm etc. or old-style versions Display.pretty_thm_global, Display.pretty_thm_without_context etc.;
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|
303 |
Display.string_of_thm_without_context thm); |
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|
304 |
false); |
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|
305 |
|
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|
306 |
(* substitute new for occurrences of old in a term, incrementing bound *) |
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|
307 |
(* variables as needed when substituting inside an abstraction *) |
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|
308 |
|
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|
309 |
fun subst_term ([] : (term * term) list) (t : term) = t |
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|
310 |
| subst_term pairs t = |
29528 | 311 |
(case AList.lookup Pattern.aeconv pairs t of |
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|
312 |
SOME new => |
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|
313 |
new |
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|
314 |
| NONE => |
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|
315 |
(case t of Abs (a, T, body) => |
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|
316 |
let val pairs' = map (pairself (incr_boundvars 1)) pairs |
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|
317 |
in Abs (a, T, subst_term pairs' body) end |
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|
318 |
| t1 $ t2 => |
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|
319 |
subst_term pairs t1 $ subst_term pairs t2 |
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|
320 |
| _ => t)); |
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|
321 |
|
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|
322 |
(* approximates the effect of one application of split_tac (followed by NNF *) |
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|
323 |
(* normalization) on the subgoal represented by '(Ts, terms)'; returns a *) |
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|
324 |
(* list of new subgoals (each again represented by a typ list for bound *) |
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|
325 |
(* variables and a term list for premises), or NONE if split_tac would fail *) |
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|
326 |
(* on the subgoal *) |
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|
327 |
|
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|
328 |
(* FIXME: currently only the effect of certain split theorems is reproduced *) |
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|
329 |
(* (which is why we need 'is_split_thm'). A more canonical *) |
71c27b320610
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|
330 |
(* implementation should analyze the right-hand side of the split *) |
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|
331 |
(* theorem that can be applied, and modify the subgoal accordingly. *) |
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|
332 |
(* Or even better, the splitter should be extended to provide *) |
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changeset
|
333 |
(* splitting on terms as well as splitting on theorems (where the *) |
71c27b320610
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parents:
diff
changeset
|
334 |
(* former can have a faster implementation as it does not need to be *) |
71c27b320610
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parents:
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changeset
|
335 |
(* proof-producing). *) |
71c27b320610
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diff
changeset
|
336 |
|
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changeset
|
337 |
fun split_once_items ctxt (Ts : typ list, terms : term list) : |
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diff
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|
338 |
(typ list * term list) list option = |
71c27b320610
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parents:
diff
changeset
|
339 |
let |
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parents:
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changeset
|
340 |
val thy = ProofContext.theory_of ctxt |
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parents:
diff
changeset
|
341 |
(* takes a list [t1, ..., tn] to the term *) |
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parents:
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|
342 |
(* tn' --> ... --> t1' --> False , *) |
71c27b320610
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wenzelm
parents:
diff
changeset
|
343 |
(* where ti' = HOLogic.dest_Trueprop ti *) |
32369 | 344 |
fun REPEAT_DETERM_etac_rev_mp tms = |
345 |
fold (curry HOLogic.mk_imp) (map HOLogic.dest_Trueprop tms) |
|
346 |
HOLogic.false_const |
|
347 |
val split_thms = filter is_split_thm (#splits (get_arith_data ctxt)) |
|
348 |
val cmap = Splitter.cmap_of_split_thms split_thms |
|
349 |
val goal_tm = REPEAT_DETERM_etac_rev_mp terms |
|
350 |
val splits = Splitter.split_posns cmap thy Ts goal_tm |
|
31082 | 351 |
val split_limit = Config.get ctxt split_limit |
24092
71c27b320610
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wenzelm
parents:
diff
changeset
|
352 |
in |
32369 | 353 |
if length splits > split_limit then ( |
354 |
tracing ("linarith_split_limit exceeded (current value is " ^ |
|
355 |
string_of_int split_limit ^ ")"); |
|
356 |
NONE |
|
357 |
) else case splits of |
|
358 |
[] => |
|
24092
71c27b320610
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wenzelm
parents:
diff
changeset
|
359 |
(* split_tac would fail: no possible split *) |
71c27b320610
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parents:
diff
changeset
|
360 |
NONE |
32369 | 361 |
| (_, _::_, _, _, _) :: _ => |
362 |
(* disallow a split that involves non-locally bound variables (except *) |
|
363 |
(* when bound by outermost meta-quantifiers) *) |
|
364 |
NONE |
|
365 |
| (_, [], _, split_type, split_term) :: _ => |
|
366 |
(* ignore all but the first possible split *) |
|
367 |
(case strip_comb split_term of |
|
24092
71c27b320610
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parents:
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changeset
|
368 |
(* ?P (max ?i ?j) = ((?i <= ?j --> ?P ?j) & (~ ?i <= ?j --> ?P ?i)) *) |
71c27b320610
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parents:
diff
changeset
|
369 |
(Const (@{const_name Orderings.max}, _), [t1, t2]) => |
71c27b320610
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wenzelm
parents:
diff
changeset
|
370 |
let |
71c27b320610
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wenzelm
parents:
diff
changeset
|
371 |
val rev_terms = rev terms |
71c27b320610
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wenzelm
parents:
diff
changeset
|
372 |
val terms1 = map (subst_term [(split_term, t1)]) rev_terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
373 |
val terms2 = map (subst_term [(split_term, t2)]) rev_terms |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
374 |
val t1_leq_t2 = Const (@{const_name Orderings.less_eq}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
375 |
split_type --> split_type --> HOLogic.boolT) $ t1 $ t2 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
376 |
val not_t1_leq_t2 = HOLogic.Not $ t1_leq_t2 |
71c27b320610
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wenzelm
parents:
diff
changeset
|
377 |
val not_false = HOLogic.mk_Trueprop (HOLogic.Not $ HOLogic.false_const) |
71c27b320610
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wenzelm
parents:
diff
changeset
|
378 |
val subgoal1 = (HOLogic.mk_Trueprop t1_leq_t2) :: terms2 @ [not_false] |
71c27b320610
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wenzelm
parents:
diff
changeset
|
379 |
val subgoal2 = (HOLogic.mk_Trueprop not_t1_leq_t2) :: terms1 @ [not_false] |
71c27b320610
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wenzelm
parents:
diff
changeset
|
380 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
381 |
SOME [(Ts, subgoal1), (Ts, subgoal2)] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
382 |
end |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
383 |
(* ?P (min ?i ?j) = ((?i <= ?j --> ?P ?i) & (~ ?i <= ?j --> ?P ?j)) *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
384 |
| (Const (@{const_name Orderings.min}, _), [t1, t2]) => |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
385 |
let |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
386 |
val rev_terms = rev terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
387 |
val terms1 = map (subst_term [(split_term, t1)]) rev_terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
388 |
val terms2 = map (subst_term [(split_term, t2)]) rev_terms |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
389 |
val t1_leq_t2 = Const (@{const_name Orderings.less_eq}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
390 |
split_type --> split_type --> HOLogic.boolT) $ t1 $ t2 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
391 |
val not_t1_leq_t2 = HOLogic.Not $ t1_leq_t2 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
392 |
val not_false = HOLogic.mk_Trueprop (HOLogic.Not $ HOLogic.false_const) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
393 |
val subgoal1 = (HOLogic.mk_Trueprop t1_leq_t2) :: terms1 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
394 |
val subgoal2 = (HOLogic.mk_Trueprop not_t1_leq_t2) :: terms2 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
395 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
396 |
SOME [(Ts, subgoal1), (Ts, subgoal2)] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
397 |
end |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
398 |
(* ?P (abs ?a) = ((0 <= ?a --> ?P ?a) & (?a < 0 --> ?P (- ?a))) *) |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
399 |
| (Const (@{const_name Groups.abs}, _), [t1]) => |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
400 |
let |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
401 |
val rev_terms = rev terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
402 |
val terms1 = map (subst_term [(split_term, t1)]) rev_terms |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
403 |
val terms2 = map (subst_term [(split_term, Const (@{const_name Groups.uminus}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
404 |
split_type --> split_type) $ t1)]) rev_terms |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
405 |
val zero = Const (@{const_name Groups.zero}, split_type) |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
406 |
val zero_leq_t1 = Const (@{const_name Orderings.less_eq}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
407 |
split_type --> split_type --> HOLogic.boolT) $ zero $ t1 |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
408 |
val t1_lt_zero = Const (@{const_name Orderings.less}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
409 |
split_type --> split_type --> HOLogic.boolT) $ t1 $ zero |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
410 |
val not_false = HOLogic.mk_Trueprop (HOLogic.Not $ HOLogic.false_const) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
411 |
val subgoal1 = (HOLogic.mk_Trueprop zero_leq_t1) :: terms1 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
412 |
val subgoal2 = (HOLogic.mk_Trueprop t1_lt_zero) :: terms2 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
413 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
414 |
SOME [(Ts, subgoal1), (Ts, subgoal2)] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
415 |
end |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
416 |
(* ?P (?a - ?b) = ((?a < ?b --> ?P 0) & (ALL d. ?a = ?b + d --> ?P d)) *) |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
417 |
| (Const (@{const_name Groups.minus}, _), [t1, t2]) => |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
418 |
let |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
419 |
(* "d" in the above theorem becomes a new bound variable after NNF *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
420 |
(* transformation, therefore some adjustment of indices is necessary *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
421 |
val rev_terms = rev terms |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
422 |
val zero = Const (@{const_name Groups.zero}, split_type) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
423 |
val d = Bound 0 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
424 |
val terms1 = map (subst_term [(split_term, zero)]) rev_terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
425 |
val terms2 = map (subst_term [(incr_boundvars 1 split_term, d)]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
426 |
(map (incr_boundvars 1) rev_terms) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
427 |
val t1' = incr_boundvars 1 t1 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
428 |
val t2' = incr_boundvars 1 t2 |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
429 |
val t1_lt_t2 = Const (@{const_name Orderings.less}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
430 |
split_type --> split_type --> HOLogic.boolT) $ t1 $ t2 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
431 |
val t1_eq_t2_plus_d = Const ("op =", split_type --> split_type --> HOLogic.boolT) $ t1' $ |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
432 |
(Const (@{const_name Groups.plus}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
433 |
split_type --> split_type --> split_type) $ t2' $ d) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
434 |
val not_false = HOLogic.mk_Trueprop (HOLogic.Not $ HOLogic.false_const) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
435 |
val subgoal1 = (HOLogic.mk_Trueprop t1_lt_t2) :: terms1 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
436 |
val subgoal2 = (HOLogic.mk_Trueprop t1_eq_t2_plus_d) :: terms2 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
437 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
438 |
SOME [(Ts, subgoal1), (split_type :: Ts, subgoal2)] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
439 |
end |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
440 |
(* ?P (nat ?i) = ((ALL n. ?i = of_nat n --> ?P n) & (?i < 0 --> ?P 0)) *) |
25919
8b1c0d434824
joined theories IntDef, Numeral, IntArith to theory Int
haftmann
parents:
25015
diff
changeset
|
441 |
| (Const ("Int.nat", _), [t1]) => |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
442 |
let |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
443 |
val rev_terms = rev terms |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
444 |
val zero_int = Const (@{const_name Groups.zero}, HOLogic.intT) |
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
445 |
val zero_nat = Const (@{const_name Groups.zero}, HOLogic.natT) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
446 |
val n = Bound 0 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
447 |
val terms1 = map (subst_term [(incr_boundvars 1 split_term, n)]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
448 |
(map (incr_boundvars 1) rev_terms) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
449 |
val terms2 = map (subst_term [(split_term, zero_nat)]) rev_terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
450 |
val t1' = incr_boundvars 1 t1 |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
451 |
val t1_eq_nat_n = Const ("op =", HOLogic.intT --> HOLogic.intT --> HOLogic.boolT) $ t1' $ |
24196 | 452 |
(Const (@{const_name of_nat}, HOLogic.natT --> HOLogic.intT) $ n) |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
453 |
val t1_lt_zero = Const (@{const_name Orderings.less}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
454 |
HOLogic.intT --> HOLogic.intT --> HOLogic.boolT) $ t1 $ zero_int |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
455 |
val not_false = HOLogic.mk_Trueprop (HOLogic.Not $ HOLogic.false_const) |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
456 |
val subgoal1 = (HOLogic.mk_Trueprop t1_eq_nat_n) :: terms1 @ [not_false] |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
457 |
val subgoal2 = (HOLogic.mk_Trueprop t1_lt_zero) :: terms2 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
458 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
459 |
SOME [(HOLogic.natT :: Ts, subgoal1), (Ts, subgoal2)] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
460 |
end |
33719 | 461 |
(* ?P ((?n::nat) mod (number_of ?k)) = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
462 |
((number_of ?k = 0 --> ?P ?n) & (~ (number_of ?k = 0) --> |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
463 |
(ALL i j. j < number_of ?k --> ?n = number_of ?k * i + j --> ?P j))) *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
464 |
| (Const ("Divides.div_class.mod", Type ("fun", [Type ("nat", []), _])), [t1, t2]) => |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
465 |
let |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
466 |
val rev_terms = rev terms |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
467 |
val zero = Const (@{const_name Groups.zero}, split_type) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
468 |
val i = Bound 1 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
469 |
val j = Bound 0 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
470 |
val terms1 = map (subst_term [(split_term, t1)]) rev_terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
471 |
val terms2 = map (subst_term [(incr_boundvars 2 split_term, j)]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
472 |
(map (incr_boundvars 2) rev_terms) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
473 |
val t1' = incr_boundvars 2 t1 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
474 |
val t2' = incr_boundvars 2 t2 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
475 |
val t2_eq_zero = Const ("op =", |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
476 |
split_type --> split_type --> HOLogic.boolT) $ t2 $ zero |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
477 |
val t2_neq_zero = HOLogic.mk_not (Const ("op =", |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
478 |
split_type --> split_type --> HOLogic.boolT) $ t2' $ zero) |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
479 |
val j_lt_t2 = Const (@{const_name Orderings.less}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
480 |
split_type --> split_type--> HOLogic.boolT) $ j $ t2' |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
481 |
val t1_eq_t2_times_i_plus_j = Const ("op =", split_type --> split_type --> HOLogic.boolT) $ t1' $ |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
482 |
(Const (@{const_name Groups.plus}, split_type --> split_type --> split_type) $ |
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
483 |
(Const (@{const_name Groups.times}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
484 |
split_type --> split_type --> split_type) $ t2' $ i) $ j) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
485 |
val not_false = HOLogic.mk_Trueprop (HOLogic.Not $ HOLogic.false_const) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
486 |
val subgoal1 = (HOLogic.mk_Trueprop t2_eq_zero) :: terms1 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
487 |
val subgoal2 = (map HOLogic.mk_Trueprop |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
488 |
[t2_neq_zero, j_lt_t2, t1_eq_t2_times_i_plus_j]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
489 |
@ terms2 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
490 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
491 |
SOME [(Ts, subgoal1), (split_type :: split_type :: Ts, subgoal2)] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
492 |
end |
33719 | 493 |
(* ?P ((?n::nat) div (number_of ?k)) = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
494 |
((number_of ?k = 0 --> ?P 0) & (~ (number_of ?k = 0) --> |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
495 |
(ALL i j. j < number_of ?k --> ?n = number_of ?k * i + j --> ?P i))) *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
496 |
| (Const ("Divides.div_class.div", Type ("fun", [Type ("nat", []), _])), [t1, t2]) => |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
497 |
let |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
498 |
val rev_terms = rev terms |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
499 |
val zero = Const (@{const_name Groups.zero}, split_type) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
500 |
val i = Bound 1 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
501 |
val j = Bound 0 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
502 |
val terms1 = map (subst_term [(split_term, zero)]) rev_terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
503 |
val terms2 = map (subst_term [(incr_boundvars 2 split_term, i)]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
504 |
(map (incr_boundvars 2) rev_terms) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
505 |
val t1' = incr_boundvars 2 t1 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
506 |
val t2' = incr_boundvars 2 t2 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
507 |
val t2_eq_zero = Const ("op =", |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
508 |
split_type --> split_type --> HOLogic.boolT) $ t2 $ zero |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
509 |
val t2_neq_zero = HOLogic.mk_not (Const ("op =", |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
510 |
split_type --> split_type --> HOLogic.boolT) $ t2' $ zero) |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
511 |
val j_lt_t2 = Const (@{const_name Orderings.less}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
512 |
split_type --> split_type--> HOLogic.boolT) $ j $ t2' |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
513 |
val t1_eq_t2_times_i_plus_j = Const ("op =", split_type --> split_type --> HOLogic.boolT) $ t1' $ |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
514 |
(Const (@{const_name Groups.plus}, split_type --> split_type --> split_type) $ |
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
515 |
(Const (@{const_name Groups.times}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
516 |
split_type --> split_type --> split_type) $ t2' $ i) $ j) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
517 |
val not_false = HOLogic.mk_Trueprop (HOLogic.Not $ HOLogic.false_const) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
518 |
val subgoal1 = (HOLogic.mk_Trueprop t2_eq_zero) :: terms1 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
519 |
val subgoal2 = (map HOLogic.mk_Trueprop |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
520 |
[t2_neq_zero, j_lt_t2, t1_eq_t2_times_i_plus_j]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
521 |
@ terms2 @ [not_false] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
522 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
523 |
SOME [(Ts, subgoal1), (split_type :: split_type :: Ts, subgoal2)] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
524 |
end |
33719 | 525 |
(* ?P ((?n::int) mod (number_of ?k)) = |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
526 |
((number_of ?k = 0 --> ?P ?n) & |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
527 |
(0 < number_of ?k --> |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
528 |
(ALL i j. |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
529 |
0 <= j & j < number_of ?k & ?n = number_of ?k * i + j --> ?P j)) & |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
530 |
(number_of ?k < 0 --> |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
531 |
(ALL i j. |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
532 |
number_of ?k < j & j <= 0 & ?n = number_of ?k * i + j --> ?P j))) *) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
533 |
| (Const ("Divides.div_class.mod", |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
534 |
Type ("fun", [Type ("Int.int", []), _])), [t1, t2]) => |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
535 |
let |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
536 |
val rev_terms = rev terms |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
537 |
val zero = Const (@{const_name Groups.zero}, split_type) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
538 |
val i = Bound 1 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
539 |
val j = Bound 0 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
540 |
val terms1 = map (subst_term [(split_term, t1)]) rev_terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
541 |
val terms2_3 = map (subst_term [(incr_boundvars 2 split_term, j)]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
542 |
(map (incr_boundvars 2) rev_terms) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
543 |
val t1' = incr_boundvars 2 t1 |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
544 |
val t2' = incr_boundvars 2 t2 |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
545 |
val t2_eq_zero = Const ("op =", |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
546 |
split_type --> split_type --> HOLogic.boolT) $ t2 $ zero |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
547 |
val zero_lt_t2 = Const (@{const_name Orderings.less}, |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
548 |
split_type --> split_type --> HOLogic.boolT) $ zero $ t2' |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
549 |
val t2_lt_zero = Const (@{const_name Orderings.less}, |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
550 |
split_type --> split_type --> HOLogic.boolT) $ t2' $ zero |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
551 |
val zero_leq_j = Const (@{const_name Orderings.less_eq}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
552 |
split_type --> split_type --> HOLogic.boolT) $ zero $ j |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
553 |
val j_leq_zero = Const (@{const_name Orderings.less_eq}, |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
554 |
split_type --> split_type --> HOLogic.boolT) $ j $ zero |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
555 |
val j_lt_t2 = Const (@{const_name Orderings.less}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
556 |
split_type --> split_type--> HOLogic.boolT) $ j $ t2' |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
557 |
val t2_lt_j = Const (@{const_name Orderings.less}, |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
558 |
split_type --> split_type--> HOLogic.boolT) $ t2' $ j |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
559 |
val t1_eq_t2_times_i_plus_j = Const ("op =", split_type --> split_type --> HOLogic.boolT) $ t1' $ |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
560 |
(Const (@{const_name Groups.plus}, split_type --> split_type --> split_type) $ |
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
561 |
(Const (@{const_name Groups.times}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
562 |
split_type --> split_type --> split_type) $ t2' $ i) $ j) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
563 |
val not_false = HOLogic.mk_Trueprop (HOLogic.Not $ HOLogic.false_const) |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
564 |
val subgoal1 = (HOLogic.mk_Trueprop t2_eq_zero) :: terms1 @ [not_false] |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
565 |
val subgoal2 = (map HOLogic.mk_Trueprop [zero_lt_t2, zero_leq_j]) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
566 |
@ hd terms2_3 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
567 |
:: (if tl terms2_3 = [] then [not_false] else []) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
568 |
@ (map HOLogic.mk_Trueprop [j_lt_t2, t1_eq_t2_times_i_plus_j]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
569 |
@ (if tl terms2_3 = [] then [] else tl terms2_3 @ [not_false]) |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
570 |
val subgoal3 = (map HOLogic.mk_Trueprop [t2_lt_zero, t2_lt_j]) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
571 |
@ hd terms2_3 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
572 |
:: (if tl terms2_3 = [] then [not_false] else []) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
573 |
@ (map HOLogic.mk_Trueprop [j_leq_zero, t1_eq_t2_times_i_plus_j]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
574 |
@ (if tl terms2_3 = [] then [] else tl terms2_3 @ [not_false]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
575 |
val Ts' = split_type :: split_type :: Ts |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
576 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
577 |
SOME [(Ts, subgoal1), (Ts', subgoal2), (Ts', subgoal3)] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
578 |
end |
33719 | 579 |
(* ?P ((?n::int) div (number_of ?k)) = |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
580 |
((number_of ?k = 0 --> ?P 0) & |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
581 |
(0 < number_of ?k --> |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
582 |
(ALL i j. |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
583 |
0 <= j & j < number_of ?k & ?n = number_of ?k * i + j --> ?P i)) & |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
584 |
(number_of ?k < 0 --> |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
585 |
(ALL i j. |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
586 |
number_of ?k < j & j <= 0 & ?n = number_of ?k * i + j --> ?P i))) *) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
587 |
| (Const ("Divides.div_class.div", |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
588 |
Type ("fun", [Type ("Int.int", []), _])), [t1, t2]) => |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
589 |
let |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
590 |
val rev_terms = rev terms |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
591 |
val zero = Const (@{const_name Groups.zero}, split_type) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
592 |
val i = Bound 1 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
593 |
val j = Bound 0 |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
594 |
val terms1 = map (subst_term [(split_term, zero)]) rev_terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
595 |
val terms2_3 = map (subst_term [(incr_boundvars 2 split_term, i)]) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
596 |
(map (incr_boundvars 2) rev_terms) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
597 |
val t1' = incr_boundvars 2 t1 |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
598 |
val t2' = incr_boundvars 2 t2 |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
599 |
val t2_eq_zero = Const ("op =", |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
600 |
split_type --> split_type --> HOLogic.boolT) $ t2 $ zero |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
601 |
val zero_lt_t2 = Const (@{const_name Orderings.less}, |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
602 |
split_type --> split_type --> HOLogic.boolT) $ zero $ t2' |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
603 |
val t2_lt_zero = Const (@{const_name Orderings.less}, |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
604 |
split_type --> split_type --> HOLogic.boolT) $ t2' $ zero |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
605 |
val zero_leq_j = Const (@{const_name Orderings.less_eq}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
606 |
split_type --> split_type --> HOLogic.boolT) $ zero $ j |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
607 |
val j_leq_zero = Const (@{const_name Orderings.less_eq}, |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
608 |
split_type --> split_type --> HOLogic.boolT) $ j $ zero |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
609 |
val j_lt_t2 = Const (@{const_name Orderings.less}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
610 |
split_type --> split_type--> HOLogic.boolT) $ j $ t2' |
35092
cfe605c54e50
moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy
haftmann
parents:
35084
diff
changeset
|
611 |
val t2_lt_j = Const (@{const_name Orderings.less}, |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
612 |
split_type --> split_type--> HOLogic.boolT) $ t2' $ j |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
613 |
val t1_eq_t2_times_i_plus_j = Const ("op =", split_type --> split_type --> HOLogic.boolT) $ t1' $ |
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
614 |
(Const (@{const_name Groups.plus}, split_type --> split_type --> split_type) $ |
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
35092
diff
changeset
|
615 |
(Const (@{const_name Groups.times}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
616 |
split_type --> split_type --> split_type) $ t2' $ i) $ j) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
617 |
val not_false = HOLogic.mk_Trueprop (HOLogic.Not $ HOLogic.false_const) |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
618 |
val subgoal1 = (HOLogic.mk_Trueprop t2_eq_zero) :: terms1 @ [not_false] |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
619 |
val subgoal2 = (map HOLogic.mk_Trueprop [zero_lt_t2, zero_leq_j]) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
620 |
@ hd terms2_3 |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
621 |
:: (if tl terms2_3 = [] then [not_false] else []) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
622 |
@ (map HOLogic.mk_Trueprop [j_lt_t2, t1_eq_t2_times_i_plus_j]) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
623 |
@ (if tl terms2_3 = [] then [] else tl terms2_3 @ [not_false]) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
624 |
val subgoal3 = (map HOLogic.mk_Trueprop [t2_lt_zero, t2_lt_j]) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
625 |
@ hd terms2_3 |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
626 |
:: (if tl terms2_3 = [] then [not_false] else []) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
627 |
@ (map HOLogic.mk_Trueprop [j_leq_zero, t1_eq_t2_times_i_plus_j]) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
628 |
@ (if tl terms2_3 = [] then [] else tl terms2_3 @ [not_false]) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
629 |
val Ts' = split_type :: split_type :: Ts |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
630 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
631 |
SOME [(Ts, subgoal1), (Ts', subgoal2), (Ts', subgoal3)] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
632 |
end |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
633 |
(* this will only happen if a split theorem can be applied for which no *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
634 |
(* code exists above -- in which case either the split theorem should be *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
635 |
(* implemented above, or 'is_split_thm' should be modified to filter it *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
636 |
(* out *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
637 |
| (t, ts) => ( |
24920 | 638 |
warning ("Lin. Arith.: split rule for " ^ Syntax.string_of_term ctxt t ^ |
32369 | 639 |
" (with " ^ string_of_int (length ts) ^ |
640 |
" argument(s)) not implemented; proof reconstruction is likely to fail"); |
|
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
641 |
NONE |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
642 |
)) |
32369 | 643 |
end; (* split_once_items *) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
644 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
645 |
(* remove terms that do not satisfy 'p'; change the order of the remaining *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
646 |
(* terms in the same way as filter_prems_tac does *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
647 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
648 |
fun filter_prems_tac_items (p : term -> bool) (terms : term list) : term list = |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
649 |
let |
33339 | 650 |
fun filter_prems t (left, right) = |
651 |
if p t then (left, right @ [t]) else (left @ right, []) |
|
652 |
val (left, right) = fold filter_prems terms ([], []) |
|
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
653 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
654 |
right @ left |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
655 |
end; |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
656 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
657 |
(* return true iff TRY (etac notE) THEN eq_assume_tac would succeed on a *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
658 |
(* subgoal that has 'terms' as premises *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
659 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
660 |
fun negated_term_occurs_positively (terms : term list) : bool = |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
661 |
List.exists |
32369 | 662 |
(fn (Trueprop $ (Const ("Not", _) $ t)) => |
663 |
member Pattern.aeconv terms (Trueprop $ t) |
|
664 |
| _ => false) |
|
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
665 |
terms; |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
666 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
667 |
fun pre_decomp ctxt (Ts : typ list, terms : term list) : (typ list * term list) list = |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
668 |
let |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
669 |
(* repeatedly split (including newly emerging subgoals) until no further *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
670 |
(* splitting is possible *) |
32369 | 671 |
fun split_loop ([] : (typ list * term list) list) = |
672 |
([] : (typ list * term list) list) |
|
673 |
| split_loop (subgoal::subgoals) = |
|
674 |
(case split_once_items ctxt subgoal of |
|
675 |
SOME new_subgoals => split_loop (new_subgoals @ subgoals) |
|
676 |
| NONE => subgoal :: split_loop subgoals) |
|
33035 | 677 |
fun is_relevant t = is_some (decomp ctxt t) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
678 |
(* filter_prems_tac is_relevant: *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
679 |
val relevant_terms = filter_prems_tac_items is_relevant terms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
680 |
(* split_tac, NNF normalization: *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
681 |
val split_goals = split_loop [(Ts, relevant_terms)] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
682 |
(* necessary because split_once_tac may normalize terms: *) |
32369 | 683 |
val beta_eta_norm = map (apsnd (map (Envir.eta_contract o Envir.beta_norm))) |
684 |
split_goals |
|
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
685 |
(* TRY (etac notE) THEN eq_assume_tac: *) |
33317 | 686 |
val result = filter_out (negated_term_occurs_positively o snd) |
32369 | 687 |
beta_eta_norm |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
688 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
689 |
result |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
690 |
end; |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
691 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
692 |
(* takes the i-th subgoal [| A1; ...; An |] ==> B to *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
693 |
(* An --> ... --> A1 --> B, performs splitting with the given 'split_thms' *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
694 |
(* (resulting in a different subgoal P), takes P to ~P ==> False, *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
695 |
(* performs NNF-normalization of ~P, and eliminates conjunctions, *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
696 |
(* disjunctions and existential quantifiers from the premises, possibly (in *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
697 |
(* the case of disjunctions) resulting in several new subgoals, each of the *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
698 |
(* general form [| Q1; ...; Qm |] ==> False. Fails if more than *) |
31082 | 699 |
(* !split_limit splits are possible. *) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
700 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
701 |
local |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
702 |
val nnf_simpset = |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
703 |
empty_ss setmkeqTrue mk_eq_True |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
704 |
setmksimps (mksimps mksimps_pairs) |
35410 | 705 |
addsimps [@{thm imp_conv_disj}, @{thm iff_conv_conj_imp}, @{thm de_Morgan_disj}, |
706 |
@{thm de_Morgan_conj}, not_all, not_ex, not_not] |
|
35230
be006fbcfb96
Lin_Arith.pre_tac: inherit proper simplifier context, and get rid of posthoc renaming of bound variables;
wenzelm
parents:
35092
diff
changeset
|
707 |
fun prem_nnf_tac ss = full_simp_tac (Simplifier.inherit_context ss nnf_simpset) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
708 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
709 |
|
35230
be006fbcfb96
Lin_Arith.pre_tac: inherit proper simplifier context, and get rid of posthoc renaming of bound variables;
wenzelm
parents:
35092
diff
changeset
|
710 |
fun split_once_tac ss split_thms = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
711 |
let |
35230
be006fbcfb96
Lin_Arith.pre_tac: inherit proper simplifier context, and get rid of posthoc renaming of bound variables;
wenzelm
parents:
35092
diff
changeset
|
712 |
val ctxt = Simplifier.the_context ss |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
713 |
val thy = ProofContext.theory_of ctxt |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
714 |
val cond_split_tac = SUBGOAL (fn (subgoal, i) => |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
715 |
let |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
716 |
val Ts = rev (map snd (Logic.strip_params subgoal)) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
717 |
val concl = HOLogic.dest_Trueprop (Logic.strip_assums_concl subgoal) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
718 |
val cmap = Splitter.cmap_of_split_thms split_thms |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
719 |
val splits = Splitter.split_posns cmap thy Ts concl |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
720 |
in |
32369 | 721 |
if null splits orelse length splits > Config.get ctxt split_limit then |
722 |
no_tac |
|
723 |
else if null (#2 (hd splits)) then |
|
724 |
split_tac split_thms i |
|
725 |
else |
|
726 |
(* disallow a split that involves non-locally bound variables *) |
|
727 |
(* (except when bound by outermost meta-quantifiers) *) |
|
728 |
no_tac |
|
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
729 |
end) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
730 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
731 |
EVERY' [ |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
732 |
REPEAT_DETERM o etac rev_mp, |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
733 |
cond_split_tac, |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
734 |
rtac ccontr, |
35230
be006fbcfb96
Lin_Arith.pre_tac: inherit proper simplifier context, and get rid of posthoc renaming of bound variables;
wenzelm
parents:
35092
diff
changeset
|
735 |
prem_nnf_tac ss, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
736 |
TRY o REPEAT_ALL_NEW (DETERM o (eresolve_tac [conjE, exE] ORELSE' etac disjE)) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
737 |
] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
738 |
end; |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
739 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
740 |
end; (* local *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
741 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
742 |
(* remove irrelevant premises, then split the i-th subgoal (and all new *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
743 |
(* subgoals) by using 'split_once_tac' repeatedly. Beta-eta-normalize new *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
744 |
(* subgoals and finally attempt to solve them by finding an immediate *) |
32369 | 745 |
(* contradiction (i.e., a term and its negation) in their premises. *) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
746 |
|
35230
be006fbcfb96
Lin_Arith.pre_tac: inherit proper simplifier context, and get rid of posthoc renaming of bound variables;
wenzelm
parents:
35092
diff
changeset
|
747 |
fun pre_tac ss i = |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
748 |
let |
35230
be006fbcfb96
Lin_Arith.pre_tac: inherit proper simplifier context, and get rid of posthoc renaming of bound variables;
wenzelm
parents:
35092
diff
changeset
|
749 |
val ctxt = Simplifier.the_context ss; |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
750 |
val split_thms = filter is_split_thm (#splits (get_arith_data ctxt)) |
33035 | 751 |
fun is_relevant t = is_some (decomp ctxt t) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
752 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
753 |
DETERM ( |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
754 |
TRY (filter_prems_tac is_relevant i) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
755 |
THEN ( |
35230
be006fbcfb96
Lin_Arith.pre_tac: inherit proper simplifier context, and get rid of posthoc renaming of bound variables;
wenzelm
parents:
35092
diff
changeset
|
756 |
(TRY o REPEAT_ALL_NEW (split_once_tac ss split_thms)) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
757 |
THEN_ALL_NEW |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
758 |
(CONVERSION Drule.beta_eta_conversion |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
759 |
THEN' |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
760 |
(TRY o (etac notE THEN' eq_assume_tac))) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
761 |
) i |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
762 |
) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
763 |
end; |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
764 |
|
31100 | 765 |
end; (* LA_Data *) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
766 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
767 |
|
31100 | 768 |
val pre_tac = LA_Data.pre_tac; |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
769 |
|
31100 | 770 |
structure Fast_Arith = Fast_Lin_Arith(structure LA_Logic = LA_Logic and LA_Data = LA_Data); |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
771 |
|
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
772 |
fun map_inj_thms f {add_mono_thms, mult_mono_thms, inj_thms, lessD, neqE, simpset, number_of} = |
31100 | 773 |
{add_mono_thms = add_mono_thms, mult_mono_thms = mult_mono_thms, inj_thms = f inj_thms, |
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
774 |
lessD = lessD, neqE = neqE, simpset = simpset, number_of = number_of}; |
31100 | 775 |
|
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
776 |
fun map_lessD f {add_mono_thms, mult_mono_thms, inj_thms, lessD, neqE, simpset, number_of} = |
31100 | 777 |
{add_mono_thms = add_mono_thms, mult_mono_thms = mult_mono_thms, inj_thms = inj_thms, |
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
778 |
lessD = f lessD, neqE = neqE, simpset = simpset, number_of = number_of}; |
31100 | 779 |
|
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
780 |
fun map_simpset f {add_mono_thms, mult_mono_thms, inj_thms, lessD, neqE, simpset, number_of} = |
31100 | 781 |
{add_mono_thms = add_mono_thms, mult_mono_thms = mult_mono_thms, inj_thms = inj_thms, |
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
782 |
lessD = lessD, neqE = neqE, simpset = f simpset, number_of = number_of}; |
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
783 |
|
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
784 |
fun map_number_of f {add_mono_thms, mult_mono_thms, inj_thms, lessD, neqE, simpset, number_of} = |
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
785 |
{add_mono_thms = add_mono_thms, mult_mono_thms = mult_mono_thms, inj_thms = inj_thms, |
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
786 |
lessD = lessD, neqE = neqE, simpset = simpset, number_of = f number_of}; |
31100 | 787 |
|
788 |
fun add_inj_thms thms = Fast_Arith.map_data (map_inj_thms (append thms)); |
|
789 |
fun add_lessD thm = Fast_Arith.map_data (map_lessD (fn thms => thms @ [thm])); |
|
790 |
fun add_simps thms = Fast_Arith.map_data (map_simpset (fn simpset => simpset addsimps thms)); |
|
791 |
fun add_simprocs procs = Fast_Arith.map_data (map_simpset (fn simpset => simpset addsimprocs procs)); |
|
792 |
||
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
793 |
fun set_number_of f = Fast_Arith.map_data (map_number_of (K (serial (), f))) |
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
794 |
|
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
795 |
|
31101
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
796 |
fun simple_tac ctxt = Fast_Arith.lin_arith_tac ctxt false; |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
797 |
val lin_arith_tac = Fast_Arith.lin_arith_tac; |
31082 | 798 |
val trace = Fast_Arith.trace; |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
799 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
800 |
(* reduce contradictory <= to False. |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
801 |
Most of the work is done by the cancel tactics. *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
802 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
803 |
val init_arith_data = |
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
804 |
Fast_Arith.map_data (fn {add_mono_thms, mult_mono_thms, inj_thms, lessD, number_of, ...} => |
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
34974
diff
changeset
|
805 |
{add_mono_thms = @{thms add_mono_thms_linordered_semiring} @ @{thms add_mono_thms_linordered_field} @ add_mono_thms, |
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
806 |
mult_mono_thms = @{thm mult_strict_left_mono} :: @{thm mult_left_mono} :: |
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
807 |
@{lemma "a = b ==> c*a = c*b" by (rule arg_cong)} :: mult_mono_thms, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
808 |
inj_thms = inj_thms, |
31082 | 809 |
lessD = lessD @ [@{thm "Suc_leI"}], |
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
34974
diff
changeset
|
810 |
neqE = [@{thm linorder_neqE_nat}, @{thm linorder_neqE_linordered_idom}], |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
811 |
simpset = HOL_basic_ss |
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
812 |
addsimps @{thms ring_distribs} |
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
813 |
addsimps [@{thm if_True}, @{thm if_False}] |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
814 |
addsimps |
35050
9f841f20dca6
renamed OrderedGroup to Groups; split theory Ring_and_Field into Rings Fields
haftmann
parents:
35028
diff
changeset
|
815 |
[@{thm add_0_left}, |
9f841f20dca6
renamed OrderedGroup to Groups; split theory Ring_and_Field into Rings Fields
haftmann
parents:
35028
diff
changeset
|
816 |
@{thm add_0_right}, |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
817 |
@{thm "Zero_not_Suc"}, @{thm "Suc_not_Zero"}, @{thm "le_0_eq"}, @{thm "One_nat_def"}, |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
818 |
@{thm "order_less_irrefl"}, @{thm "zero_neq_one"}, @{thm "zero_less_one"}, |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
819 |
@{thm "zero_le_one"}, @{thm "zero_neq_one"} RS not_sym, @{thm "not_one_le_zero"}, |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
820 |
@{thm "not_one_less_zero"}] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
821 |
addsimprocs [ab_group_add_cancel.sum_conv, ab_group_add_cancel.rel_conv] |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
822 |
(*abel_cancel helps it work in abstract algebraic domains*) |
31082 | 823 |
addsimprocs Nat_Arith.nat_cancel_sums_add |
35410 | 824 |
addcongs [@{thm if_weak_cong}], |
31510
e0f2bb4b0021
fast_lin_arith uses proper multiplication instead of unfolding to additions
boehmes
parents:
31101
diff
changeset
|
825 |
number_of = number_of}) #> |
31082 | 826 |
add_discrete_type @{type_name nat}; |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
827 |
|
29849
a2baf1b221be
new attribute "arith" for facts supplied to arith.
nipkow
parents:
29548
diff
changeset
|
828 |
fun add_arith_facts ss = |
30686
47a32dd1b86e
moved generic arith_tac (formerly silent_arith_tac), verbose_arith_tac (formerly arith_tac) to Arith_Data; simple_arith-tac now named linear_arith_tac
haftmann
parents:
30528
diff
changeset
|
829 |
add_prems (Arith_Data.get_arith_facts (MetaSimplifier.the_context ss)) ss; |
29849
a2baf1b221be
new attribute "arith" for facts supplied to arith.
nipkow
parents:
29548
diff
changeset
|
830 |
|
31101
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
831 |
val simproc = add_arith_facts #> Fast_Arith.lin_arith_simproc; |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
832 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
833 |
|
26110 | 834 |
(* generic refutation procedure *) |
835 |
||
836 |
(* parameters: |
|
837 |
||
838 |
test: term -> bool |
|
839 |
tests if a term is at all relevant to the refutation proof; |
|
840 |
if not, then it can be discarded. Can improve performance, |
|
841 |
esp. if disjunctions can be discarded (no case distinction needed!). |
|
842 |
||
843 |
prep_tac: int -> tactic |
|
844 |
A preparation tactic to be applied to the goal once all relevant premises |
|
845 |
have been moved to the conclusion. |
|
846 |
||
847 |
ref_tac: int -> tactic |
|
848 |
the actual refutation tactic. Should be able to deal with goals |
|
849 |
[| A1; ...; An |] ==> False |
|
850 |
where the Ai are atomic, i.e. no top-level &, | or EX |
|
851 |
*) |
|
852 |
||
853 |
local |
|
854 |
val nnf_simpset = |
|
855 |
empty_ss setmkeqTrue mk_eq_True |
|
856 |
setmksimps (mksimps mksimps_pairs) |
|
857 |
addsimps [@{thm imp_conv_disj}, @{thm iff_conv_conj_imp}, @{thm de_Morgan_disj}, |
|
858 |
@{thm de_Morgan_conj}, @{thm not_all}, @{thm not_ex}, @{thm not_not}]; |
|
859 |
fun prem_nnf_tac i st = |
|
35232
f588e1169c8b
renamed Simplifier.theory_context to Simplifier.global_context to emphasize that this is not the real thing;
wenzelm
parents:
35230
diff
changeset
|
860 |
full_simp_tac (Simplifier.global_context (Thm.theory_of_thm st) nnf_simpset) i st; |
26110 | 861 |
in |
862 |
fun refute_tac test prep_tac ref_tac = |
|
863 |
let val refute_prems_tac = |
|
864 |
REPEAT_DETERM |
|
865 |
(eresolve_tac [@{thm conjE}, @{thm exE}] 1 ORELSE |
|
866 |
filter_prems_tac test 1 ORELSE |
|
867 |
etac @{thm disjE} 1) THEN |
|
868 |
(DETERM (etac @{thm notE} 1 THEN eq_assume_tac 1) ORELSE |
|
869 |
ref_tac 1); |
|
870 |
in EVERY'[TRY o filter_prems_tac test, |
|
871 |
REPEAT_DETERM o etac @{thm rev_mp}, prep_tac, rtac @{thm ccontr}, prem_nnf_tac, |
|
872 |
SELECT_GOAL (DEPTH_SOLVE refute_prems_tac)] |
|
873 |
end; |
|
874 |
end; |
|
875 |
||
876 |
||
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
877 |
(* arith proof method *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
878 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
879 |
local |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
880 |
|
31101
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
881 |
fun raw_tac ctxt ex = |
33035 | 882 |
(* FIXME: K true should be replaced by a sensible test (perhaps "is_some o |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
883 |
decomp sg"? -- but note that the test is applied to terms already before |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
884 |
they are split/normalized) to speed things up in case there are lots of |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
885 |
irrelevant terms involved; elimination of min/max can be optimized: |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
886 |
(max m n + k <= r) = (m+k <= r & n+k <= r) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
887 |
(l <= min m n + k) = (l <= m+k & l <= n+k) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
888 |
*) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
889 |
refute_tac (K true) |
33728
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
890 |
(* Splitting is also done inside simple_tac, but not completely -- *) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
891 |
(* split_tac may use split theorems that have not been implemented in *) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
892 |
(* simple_tac (cf. pre_decomp and split_once_items above), and *) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
893 |
(* split_limit may trigger. *) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
894 |
(* Therefore splitting outside of simple_tac may allow us to prove *) |
cb4235333c30
Fixed splitting of div and mod on integers (split theorem differed from implementation).
webertj
parents:
33719
diff
changeset
|
895 |
(* some goals that simple_tac alone would fail on. *) |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
896 |
(REPEAT_DETERM o split_tac (#splits (get_arith_data ctxt))) |
31101
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
897 |
(lin_arith_tac ctxt ex); |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
898 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
899 |
in |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
900 |
|
31101
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
901 |
fun gen_tac ex ctxt = FIRST' [simple_tac ctxt, |
35625 | 902 |
Object_Logic.full_atomize_tac THEN' (REPEAT_DETERM o rtac impI) THEN' raw_tac ctxt ex]; |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
903 |
|
31101
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
904 |
val tac = gen_tac true; |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
905 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
906 |
end; |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
907 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
908 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
909 |
(* context setup *) |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
910 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
911 |
val setup = |
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
912 |
init_arith_data #> |
31101
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
913 |
Simplifier.map_ss (fn ss => ss addsimprocs [Simplifier.simproc (@{theory}) "fast_nat_arith" |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
914 |
["(m::nat) < n","(m::nat) <= n", "(m::nat) = n"] (K simproc)] |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
915 |
(* Because of fast_nat_arith_simproc, the arithmetic solver is really only |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
916 |
useful to detect inconsistencies among the premises for subgoals which are |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
917 |
*not* themselves (in)equalities, because the latter activate |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
918 |
fast_nat_arith_simproc anyway. However, it seems cheaper to activate the |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
919 |
solver all the time rather than add the additional check. *) |
29850 | 920 |
addSolver (mk_solver' "lin_arith" |
31100 | 921 |
(add_arith_facts #> Fast_Arith.cut_lin_arith_tac))) |
922 |
||
923 |
val global_setup = |
|
924 |
setup_split_limit #> setup_neq_limit #> |
|
925 |
Attrib.setup @{binding arith_split} (Scan.succeed (Thm.declaration_attribute add_split)) |
|
926 |
"declaration of split rules for arithmetic procedure" #> |
|
927 |
Method.setup @{binding linarith} |
|
33554 | 928 |
(Scan.succeed (fn ctxt => |
31100 | 929 |
METHOD (fn facts => |
33554 | 930 |
HEADGOAL (Method.insert_tac (Arith_Data.get_arith_facts ctxt @ facts) |
31101
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
931 |
THEN' tac ctxt)))) "linear arithmetic" #> |
26c7bb764a38
qualified names for Lin_Arith tactics and simprocs
haftmann
parents:
31100
diff
changeset
|
932 |
Arith_Data.add_tactic "linear arithmetic" gen_tac; |
24092
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
933 |
|
71c27b320610
HOL setup for linear arithmetic -- moved here from arith_data.ML;
wenzelm
parents:
diff
changeset
|
934 |
end; |